Precision data collection for health monitoring

ABSTRACT

In some implementations, a system provides a user interface for creating a customized module to customize behavior of an application. The user interface identifies templates that each specify one or more user forms. The system receives data indicating a user input received through the user interface that selects of one of the templates to be used in generating the customized module. The system receives customization data entered using the user interface, where the customization data specifies one or more changes to the content that the selected template specifies for the application to present. The system generates the customized module based on the selected template and the customization data. The system provides the customized module over a computer network, the customized module being configured to cause a device having the application installed to present the first user form customized according to the customization data.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. application Ser. No.16/847,428 filed Apr. 13, 2020, which is a continuation of U.S.application Ser. No. 15/858,165, filed Dec. 29, 2017, now U.S. Pat. No.10,705,816, which is a divisional of U.S. application Ser. No.15/040,635, filed Feb. 10, 2016, now U.S. Pat. No. 9,858,063. The entirecontents of each of the prior applications are incorporated by referenceherein.

GOVERNMENT LICENSE RIGHTS

This invention was made with government support under grant numberHHSN261201300056C awarded by the National Institutes of Health. Thegovernment has certain rights in the invention.

FIELD

This specification generally describes technology related to publishingcustomized application modules.

BACKGROUND

Applications for computers, mobile devices, and other devices canprovide useful functionality to users. However, it can be very costlyand time consuming to create, distribute, and maintain an application.

Typically, it is very difficult for organizations to create anddistribute mobile applications and other solutions that can meet theneeds of their members. Different organizations have widely varyinghealth policies. For example, different organizations may have differentinsurance options and health goals for their members. Similarly,individuals have widely varying healthcare needs.

SUMMARY

In some implementations, a system provides a platform that allowsefficient creation and distribution of customized program modules tousers. Individual users can download a single application from a serverfor an application store or marketplace. Separately, a publishing systemprovides modules for the application that define different sets offunctionality and different user experiences. Various organizations canuse the publishing system to quickly create and customize a programmodule to meet their needs, based on predetermined templates offered bythe publishing system. For example, the publishing system allows anorganization to customize the module templates to use the organization'sown name, logo, media, and other branding assets. Organizations can alsoselect which aspects of the application will be made available to theuser and in what manner. By creating a custom module, an organizationcan define a unique, branded user experience for an application, e.g.,for a mobile device such as a smartphone or tablet computer, withoutrequiring the organization to invest the time and effort to code, test,publish, and maintain an application.

When a user downloads and installs the application associated with thepublishing system, the user can select and download an appropriatecustomized module. The module can include a variety of elements thatadjust the user's experience. For example, a module can include customcontent from the organization that customized it, as well as interactiveelements, media, and features from the template used to generate themodule. After downloading the module, the application may reconfigureits interface as directed by the module, as if the organization thatcustomized the module had provided the user a customized, stand-aloneapplication.

In some implementations, organizations may use the publishing system tocustomize modules that enhance the wellbeing of users. For example, anorganization may provide various modules that support health initiativesof a company. Using the publishing system, the employer may selectmodule templates for various aspects of wellbeing, such as generalfitness, weight loss, diabetes management, and so on. The moduletemplates may include clinically validated information andrecommendations tailored for a specific medical condition or healthgoal. This template information provides the employer effective,validated techniques to improve a user's health, without requiring theemployer to invest in research to identify appropriate user experiencessupporting health. The employer may customize the template, for example,specifying additional goals or incentives specific to the employer, aswell as health insurance information that is applicable for theemployer. Additionally, the employer may include the employer's name,logo, and other content, so that once the module is downloaded andincorporated into the application, the application may appear as if itwere a fully customized application from the employer. In a similarmanner, health insurance companies, doctors and hospitals, governmententities, and other organizations may all create their own respectivecustomized modules to be published.

In some implementations, customized health management modules can beused to provide organization-specific information on user interfaces ofmobile applications from a third-party application store. The customizedhealth management modules can be published by a publishing system thatsupports data collection and monitoring processes associated with healthmanagement programs provided by multiple healthcare providers. Thecustomized health management modules can be used to integrate varioustypes of information from different entities associated with healthcareservices such as insurance companies, providers, pharmacies, andpatients into a common platform with limited costs of implementation fororganizations that provide modules through the publishing system.

In one general aspect, a computer-implemented method includes:providing, by a server system, a user interface for designing a healthmanagement module, the user interface identifying a plurality of healthmanagement module templates; receiving, by the server system, dataindicating a user input received through the user interface that selectsof one of the plurality of module templates; receiving, by the serversystem, customization parameters that customize the selected moduletemplate for a particular organization; generating, by the serversystem, a customized health management module for the particularorganization based on the selected template and the customizationparameters; and publishing, by the server system, the customized healthmanagement module for the particular organization, the customized healthmanagement module including instructions that configures an applicationprovided by a third-party application store.

Implementations can include one or more optional features. For instance,in some implementations, each of the particular organization, anoperator of the third-party application store, and the provider of theapplication are independent entities.

In some implementations, the plurality of health management moduletemplates include multiple templates corresponding to different medicalconditions, each of the multiple templates including clinicalinformation for the corresponding medical condition.

In some implementations, the user interface for designing the healthmanagement module additionally identifies a set of interactivitysettings.

In some implementations, the customization parameters specify one ormore access conditions for the customized health management module forthe particular organization.

In some implementations, the customization parameters includeinformation identifying healthcare initiatives provided by theparticular organization.

In some implementations, generating the customized health managementmodule for the particular organization includes: identifying a moduletemplate based on user input; associating media content for theparticular organization; and defining one or more user interactionsettings for the customized health management module.

In some implementations, publishing the customized health managementmodule for the particular organization includes providing the customizedhealth management module over a network for access by the applicationprovided by the third-party application store.

In some implementations, publishing the customized health managementmodule for the particular organization includes: receiving, by theserver system and from a client device having the application from thethird party application store installed, a request for the customizedhealth management module for the particular organization; and inresponse to receiving the request for the customized health managementmodule for the particular organization, transferring, over a network,the customized health management module to the client device that haspreviously installed the application from the third-party applicationstore such that the customized health management module performs a setof operations to adjust the application on the client device.

In some implementations, the customized health management moduleincludes one or more tracking modules, the one or more tracking modulesconfigured to initiate monitoring and reporting of predetermined contentitems associated with the application provided by the third partyapplication store according to predetermined conditions specified by thecustomized health management module.

In some implementations, the customization parameters that customize theselected module template specify branding items, associated with theparticular organization, to be displayed on the customized healthmanagement module.

In some implementations, the customization parameters that customize theselected module template specify interaction rules that specifytechniques for submitting information on a user interface of theapplication provided by the third party application store.

In some implementations, generating the customized health managementmodule for the particular organization includes: determining one or morehealthcare providers that are supported by the particular organizationto provide healthcare services; and generating the customized healthmanagement module to include information associated with the one or morehealthcare providers that are supported by the particular organizationto provide healthcare services.

In another general aspect, a computer-implemented method includes:installing, at an electronic device, an application downloaded over acomputer network from an application store provided by a first serversystem; after installing the application, displaying, at the electronicdevice, a list of health management modules provided by a second serversystem that is independent of the first server system; providing, by theelectronic device and to the second server system, data indicating oneof the listed health management modules that was selected by a user ofthe electronic device; receiving, by the electronic device and from thesecond server system, the selected health management module; andinstalling, by the electronic device, the received health managementmodule to modify the application to interact with the user according tothe received health management module.

In some implementations, providing the data indicating one of the listedhealth management modules that was selected by the user of theelectronic device includes information of a particular organizationassociated with the one of the listed health management modules that wasselected by the user of the electronic device, and receiving theselected health management module includes receiving a list of healthmanagement modules that correspond to the particular organization.

In some implementations, installing the received health managementmodule to modify the application includes: storing the received healthmanagement module on the electronic device; and designating the receivedhealth management module as a health management module to be displayedon the application during a subsequent application session.

In some implementations, modifying the application to interact with theuser includes at least one of adjusting the user interface of theapplication, or adjusting tracking and reporting operations associatedwith the application.

In some implementations, the computer-implemented method for installingthe received health management module includes modifying the applicationbased on a set of instructions within the received health managementmodule, the set of instructions enabling one or more functions of theapplication during a subsequent application session.

In some implementations, the application provided by the third-partyapplication store is configured according to a local applicationconfiguration.

In some implementations, the computer-implemented method for installingthe received health management module includes, after installing thereceived health management module, receiving, from the second serversystem, data indicating one or more updates to the received healthmanagement module.

The details of one or more implementations are set forth in theaccompanying drawings and the description below. Other potentialfeatures and advantages will become apparent from the description, thedrawings, and the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram that illustrates an example of a publishing system.

FIG. 2A is a diagram that illustrates an example of a process forpublishing a customized module to a user device.

FIG. 2B is a diagram that illustrates communication that a publishingsystem facilitates between various systems.

FIG. 3 is a diagram that illustrates examples of data that can be usedto generate module specifications for a customized health managementmodule.

FIG. 4 is a diagram that illustrates examples of data that can be usedto generate customization instructions for a customized healthmanagement module.

FIGS. 5A-5B are diagrams that illustrate examples of customizationinstructions for a published customized module.

FIG. 5C is a diagram that illustrates an example of user interfaces forselecting a customized module.

FIG. 5D is a diagram that illustrates an example of a user interface forselecting modules available to a user.

FIGS. 6A-6B are diagrams of examples of processes for publishing acustomized module.

FIG. 7 is a block diagram of computing devices on which the processesdescribed herein, or potions thereof, can be implemented.

In the drawings, like reference numbers represent corresponding partsthroughout.

DETAILED DESCRIPTION

In general, this specification describes systems and methods forgenerating and publishing customized program modules that adjust a userexperience provided by an application. The customized module can includedata that directs the application how to use and display variouscapabilities already existing in the application. In someimplementations, the publishing system provides customized healthmanagement modules that enable client organizations to providecustomized information to users through a single publishing platform.The publishing system allows client organizations to provide theirmembers the benefits of customized applications without incurring thesignificant costs associated with developing and distributing a newapplication for each organization.

The publishing system can provide a publishing platform for generatingand distributing customized health management modules. A clientorganization can use the publishing platform provided by the publishingsystem to distribute a health management module to users. In addition, ahealthcare provider can also provide information that is used in thehealth management modules. Finally, a user can be an end-user thatinstalls a mobile application from a third-party app store on a userdevice, and then downloads one of the customized health managementmodules provided by the publishing system.

As described herein, a “health management module” refers to a set ofcomputer-implemented code or instructions that define a user experienceassociated with a mobile application. The health management module canindicate specific features of an application that a particular clientorganization selected to expose to the user. When downloaded and storedon a user device, the module configures the associated mobileapplication to provide custom content and interactions selected by theclient organization. When the user subsequently runs the application,the application retains the configuration, appearance, and interactivityspecified by the previously downloaded module. Using a customizedmodule, the client organization can provide the user the experience of anative mobile application without the need for the client organizationto code and register an application with an app store (e.g., the AppleApp Store, or Google Play for Android Apps, etc.). The health managementmodule can also include or refer to various content items such as media,forms, and user interface parameters that include customized logos andbranding for a client organization. In addition, the health managementmodule enables the user and the client organization to perform specifictypes of data tracking and reporting according to a user's specificmedical needs, or the priorities of the client organization (e.g., toencourage and reward exercise, or to promote quitting smoking, etc.). Inthis regard, the health management module can be customized to the goalsof the client organization, the user, or both.

Several different actors interact with the publishing system, forexample, (a) a “client organization,” (b) an “administrator,” (c) a“healthcare provider,” and (d) a “user” (or “patient”). A “clientorganization” refers to an organization that uses the services of thepublishing system to distribute a module for the organization. Forinstance, the client organization can be an employer that providehealthcare insurance or other health management programs to employees.When using the publishing system, the client organization can provideorganization-specific information such as logos, promotional content, orspecific healthcare initiatives to the publishing system to display tousers that use the customized module.

An “administrator” refers to an entity or individual that interacts withan administrator portal of the publishing system to create a customizedhealthcare module. In some instances, the administrator is an employeeor representative of the client organization that manages and updatesthe customized module. For instance, the administrator can use anadministrator portal of the publishing system to select from variousoptions and provide specifications for a desired module. Additionally,the administrator may identify a list of users that are eligible toreceive the module, data indicating applicable healthcare providers orinsurance plans, access privileges associated with particular featuresof the health management modules, or custom content for healthmanagement modules.

A “healthcare provider” refers to individuals, institutions, ororganizations that provide healthcare services to users. In someinstances, the healthcare provider can be an individual healthprofessional such as a physician, or an entity such as a hospital thatprovides preventative, curative, or rehabilitative programs for users,or a health insurance provider. Healthcare providers can use a providerportal to interact with the publishing system, both to submitinformation that is accessed through appropriate modules and to receiveinformation from users of certain modules to use in enhancing treatment.As an example, healthcare providers may submit health-relatedinformation such as electronic health records, treatment programinformation, or promotional material. This information may be generalfor a group of users (e.g., for all users who have a particularinsurance plan) or specific to individual users. In some instances, theinformation submitted on the provider portal can be compiled into a setof module information that is used to personalize the display andoperation of the customized health management modules to the provider.

A “user” or “patient” refers to an individual that uses a mobileapplication and one or more customized modules. In some instances, theuser receives healthcare-related services from the healthcare provider.For instance, the user can use a mobile application that is customizedusing a healthcare module created on behalf of the user's employer, theuser's insurance company, or another entity.

FIG. 1 is a diagram that illustrates an example of a publishing system100. The system 100 can include an administrator system 110, ahealthcare provider system 120, a publishing system 130, an app store140, and one or more user devices 150 a, 150 b, 150 c connected over anetwork 105. The administrator system 110 can access an admin portal 112provided by the publishing system 130. The publishing system 130 caninclude a repository 134 for storing content and information associatedwith the publishing system 100, such as templates for creating newmodules and previously-created custom modules and associated content. Inaddition, each of the user devices 150 a, 150 b, and 150 c can displayuser interfaces 152 a, 152 b, and 152 c, respectively, to a set ofdifferent users associated with each of the user devices.

In more detail, the administrator system 110 can be a computing systemused by an administrator of a client organization that uses thepublishing system 130 to create and distribute a customized module. Theadministrator system 110 can access an administrator portal 112 that isprovided by the publishing system 130. The administrator portal 112 canbe used by the administrator to create or update a set of modulespecifications that configure a health management modules for a specificclient organization. In addition, the administrator portal 112 can beused to identify which users are eligible for the customized module.Also, the admin portal can also be used to configure a payment gatewaythat is used in financial transactions associated with the clientorganization.

The admin portal 112 can also be used to create accounts for providersthat are associated with a client organization. For example, theproviders can be healthcare insurers and/or healthcare providers thataccept the health insurance plans that are provided to employees of theclient organization.

The healthcare provider system 120 can be a computing system thatincludes information related to one or more healthcare providers. Thehealthcare provider system 120 can access a provider portal provided bythe publishing system 130 to submit patient and provider informationthat is relevant to treatment programs created in the admin portal 112.For example, a provider can submit medical histories, immunizationrecords, previous consultation reports, and/or procedure charts for aparticular user through the provider portal, which can then beassociated with specific treatment programs for the particular user. Inaddition, the provider portal can be used by providers to periodicallyupdate patient and provider information such that the data within theapplication ecosystem of the system 110 is up-to-date and accurate.

The publishing system 130 can be a remote server that aggregatesinformation provided by administrators on the admin portal 112 and byproviders on the healthcare provider portal 122, and generatescustomized health management modules based on the information provided.For instance, as described more particularly with respect to FIG. 2A,the publishing system 130 can use the module specifications receivedfrom the admin portal and the module information received from thehealthcare provider portal 122 to generate customization instructionsthat customize a module for a particular organization. The publishingsystem 130 also includes the repository 134, which can store relatedinformation of the system 100. For example, as depicted in FIG. 1, therepository 134 can include stored modules for other clientorganizations, templates for new health management modules, componentsor rules for components or elements to be included within healthmanagement modules, or lists of available modules for the user.

The app store 140 can be a mobile application store associated with theparticular operating system of the user devices 150 a, 150 b, and 150 c.The app store 140 can be operated by an entity that is independent ofthe client organization and its associated administrator, the healthcareprovider, and the publishing system. In particular, an applicationassociated with the publishing system may be provided by a server for anapp store, but the publishing system 130 may independently providemodules that are subsequently downloaded after the application isinstalled. For instance, the app store 140 can be operated by a thirdparty mobile device manufacturer or a third party software vendor thatprovides software development toolkits to design mobile applications onthe mobile operating systems of the user devices 150 a, 150 b, 150 c.Examples of app stores include the Apple App Store, the Google Play appstore for Android devices, and the Amazon.com app store. In someinstances, different app stores 140 can be used with different mobileoperating systems of the user devices 150 b, and 150 c. In suchinstances, a mobile application of the publishing system 100 can bedesigned for multiple mobile operating systems.

The app store 140 can be used by users to install a mobile applicationassociated with the system 100 onto the user devices 150 a, 150 b, and150 c. For instance, the same mobile application can display theinterfaces 152 a, 152 b, and 152 c to users of the user devices 150 a,150 b, and 150 c. In addition, as described more particularly withrespect to FIG. 2A, the mobile application can periodically receive datafrom the publishing system 130 that include instructions to adjust theinterfaces 152 a, 152 b, and 152 c according to the customized healthmanagement modules. The instructions can different for each user device,according to the different modules installed, the different healthcareproviders associated, and the user's individual health needs. As aresult, the interfaces 152 a, 152 b, and 152 c may provide informationtailored for each user's organization, and in some instances,user-specific information.

The user devices 150 a, 150 b, 150 c can be any type of electronicdevice that is capable of running third party mobile applications fromthe app store 140. For instance, the user devices 150 a, 150 b, 150 ccan be one or more of a smart phone, a laptop computing device, a tabletcomputing device, a watch or other connected wearable device, or othertypes of network-enabled computing devices. In addition, the userdevices 150 a, 150 b, 150 c can be associated with different users suchthat each device is used for different treatment programs. In someinstances, the user devices 150 a, 150 b, 150 c can additionally storean installed mobile application that enables the user devices toexchange communications with the publishing system 130 and receive a setof customization instructions that configure the interfaces 152 a, 152b, and 152 c.

FIG. 2A is a diagram that illustrates an example of a process 200 forpublishing a customized health management module to a user device 150.In general, the process 200 can be used to customize health managementmodules based on health-related associated with particular treatmentprograms that a user of the user device 150 is enrolled in,health-related information submitted by providers, and modulespecifications created by a system administrator. In this regard, theprocess 200 can be used by a plurality of entities within an applicationecosystem, as described with respect to FIG. 1, to provide a set ofcustomized health management modules can include provider-specific,client organization-specific, and user-specific information to the userdevice 150.

The process 200 initially starts when the administrator system 110transmits module specifications 114 to the publishing system 130. Asdescribed above, the module specifications 114 can include accountinformation for client organizations, providers, and/or users, accesscontrol lists specifying account privileges for features associated withcustomized health management modules, or client organizationalframeworks that link client organizations to a list of availableproviders and treatment programs that are offered to users. The modulespecifications 114 can be inputted and/or updated by an administratorusing the admin portal 112 as described with respect to FIG. 1. In someimplementations, the module specifications 114 can also include accesscredentials associated with a provider or a user. For example, theaccess credentials can be based on a code such as a value from a quickreader (QR) code, a personal identifier number (PIN), or auser-selectable password that is associated with the mobile application142.

In addition to the administrator system 110 transmitting the modulespecifications 114, the healthcare provider system 120 transmits moduleinformation 122 to the publishing system 130. As described previously,the module information 122 can include health-related informationassociated with client organizations such as policy information forhealth insurance provides associated with an employer. The moduleinformation 122 can also include a list of providers that accept theparticular types of health insurance provided to employees by anemployer. In some instances, the module information 122 can includeclient organization-specific information that is used to customize theappearance of the health management modules for the client organization.For example, in such instances, the module information 122 can includeproprietary information, marketing or branding information associatedwith the organization, healthcare initiatives that are offered by theclient organization, or treatment programs that are offered as servicesby associated providers to the users. In each of these examples, themodule information 122 is used to gather client organization-specificinformation that is then used to generate a customized health managementmodule that includes published information that is unique to the clientorganization.

After receiving the module specifications 114 and the module information122, the publishing system 130 can execute a set of computer-implementedprocedures to generate the customized module 136. For instance, thepublishing system 130 can include a set of dedicated software modulesthat perform a set of particular actions based on the data submitted onthe administrator portal 112 and the healthcare provider portal 122.

As depicted in FIG. 2A, the publishing system 130 can include a trackermanager that creates and manages trackers associated with treatmentprograms provided to users based on data submitted on the healthcareprovider portal 122. For example, the trackers can monitor treatmentmilestones for a patient undergoing recovery after an operation based onthe type of procedure performed.

The publishing system can also include a module coordinator thatprocesses operations related to multiple customized health managementmodules for a provider or a client organization. For instance, themodule coordinator can assign relative importance to individual healthmanagement modules such that certain health management modules thatprovide life-critical information to users can be prioritized overrecreational health management modules. In other instances, the modulecoordinator can create and adjust update schedules for individual healthmanagement modules that determine how often each of the individualhealth management modules are periodically customized.

The module coordinator can also process incoming signal transmissionsfrom different components of the publishing system 130 and generateinstructions to perform particular activities by the publishing system130. For instance, the module coordinator can receive module-specificcontent from the content manager and determine instructions to generatea customized health management module that includes the module-specificcontent. The module coordinator can additionally receive module-specificprotocols, which can be used to adjust how customized health managementmodules are displayed on the user device, and/or implement securityfeatures that are used to protect personally identifiable informationassociated with users.

The publishing system 130 also includes a provider manager that monitorsactivities of multiple providers that are available for eachorganization. For instance, the provider manager can receive a list ofproviders for each client organization from the administrator system 110and then monitor incoming and outgoing transmissions from the programcoordinator. For example, the module coordinator can provide informationrelated to a specific treatment program, and the provider manager canthen determine the appropriate provider for the treatment program.

The publishing system 130 also includes a decision engine that executescomputer-implemented processes based on one or more rules associatedwith configuration protocols of the health management modules. Forinstance, the decision engine can extract configuration data from themodule specifications 114 transmitted from the administrator system 110,compare the extracted configuration data to a set of business rulesspecified within the admin portal 112, and execute responsive operationsbased on the comparison. For example, the decision engine can determineappropriate content to be included within a customized healthcaremodule, select the appropriate content and transmit the contentselection to the content manager. In another example, the decisionengine can determine a set of configuration protocols based oninformation included within the module specifications 114, and transmitthe set of configuration protocols to the program coordinator.

The publishing system 130 also includes a content management system(CMS). The CMS stores content items for different modules and specifieshow particular content items are used in health management modules. TheCMS may store and organize any of the components of a module template ora completed module. For example, the CMS may store text, media, andother content that is used to form module templates made available bythe publishing system 130. This stored information may also includedescriptions of particular user interactions for a module, userexperiences provided by a module, or characteristics of user interfaces.The CMS may also store custom content provided by organizations whenthey customize module templates to generate a customized module, forexample, text, logos, images, videos, and so on. Other examples ofcontent that can be stored by the CMS include messages to be displayedto a user, hyperlinks, files, or email templates.

The content management system can categorize content items according tothe type of content or the intended usage of the content. The intendedusage can indicate what portion of an interface of a module the contentshould be displayed, or when the content should be presented during useof a module. Some items may be categorized for display on a main contentpanel, while other items may be designated for display on a settingspanel, a reminder view, a calendar view, or other portion of aninterface. Content items in the CMS may be designated for display inresponse to certain conditions, such as surveys or forms to be providedin response to certain actions. Similarly, the CMS may include preloadedprovider messages, such as pre-defined content that a healthcareprovider may be able to cause to be displayed when appropriate.

The publishing system 130 also includes form/log manager that maintainsa set of customized forms created in the admin portal 112. The forms areused to gather data such as user-submitted information, userpreferences, and/or other user inputs that include health-relatedinformation associated with the provider or the client organization. Forinstance, the forms or logs can include patient surveys that requesthealthcare-related information from patients prior to a medical consult.In other instances, the forms or logs can include module-specificcontent such as treatment information or prescription dosages. Inaddition, the forms can include various user interface components thatare associated with particular data types entered by the user (e.g.,data entry fields for user-submitted text queries, user-specificgraphical content, provider-lists populated for a particular clientorganization, etc.).

The form/log manager can also execute a set of computer-implementedinstructions received from the module configurator. For instance, theinstruction can include logic for selecting particular user interfacecomponents and adjusting the layout of user interface components on aparticular user form/log based on the operations performed by the modulecoordinator. In this regard, the data transmissions between the modulecoordinator and the format/log manager enables the generation of userforms that can customize the layout of user interface components,transitions between different sections or user interface components,and/or specify one or more conditions for generating specific types ofuser forms. In one example, in response to determining that the user hasan upcoming checkup with a primary care provider, the module coordinatortransmits instructions to the form/log manager to generate a user formthat includes relevant clinical information and appointment information.In response to receiving the instructions, the form/log manager cangenerate a patient checkup form that includes the user data receivedfrom the module manager. In addition, the form/log manager can customizethe display and layout of the user data such that the most vital patientinformation is displayed in a more central location of the user formthan other non-vital patient information.

After processing the data included within the module specifications 114and the module information 124 and performing the operations describedabove, the publishing system 130 can store processed data within therepository 134 and generate a set of customized module 136. As describedpreviously with respect to FIG. 1, the repository 134 can includehistorical user data, templates for stored health management modules forgeneration on the user device 150 at a later time period, components orrules generating customized health management modules, and/or lists ofapplicable health management modules for particular user devices basedon user, provider, and client organization information.

The customized module 136 can provide a user interface displayed on themobile application 142 that includes published information based on themodule specifications 114 and the module information 124. For instance,as depicted in FIG. 5C, the customized module 136 can include clientorganization-specific information (e.g., logos and promotional material)and information submitted by a healthcare provider (e.g., clinicalinformation for the user). In some examples, the customized module 136can displayed on the mobile application 142 by adjusting the display ofthe interface of the mobile application 142 by publishing informationreceived by the publishing system 130.

After a module 136 has been received from the publishing system 130, themodule 136 may be updated in a manner that is seamless and transparentto the user. The mobile application 142 can obtain updates to the module136 from the publishing system 130 in real-time, e.g., in the backgroundwhile the user is interacting with the module. The application 142 mayincorporate updates to the customized module 136 so that the module 136and the interface shown at the user device 150 are updated withoutrequiring the user to re-login into the mobile application 142.Similarly, updates may occur without any update to the mobileapplication 142 from the app store 140. For example, in some instances,the customized module 136 can be locally stored on the user device 150.The user may have the application 142 open and in use, showing theinterface of the module 136. While user is interacting with theinterface, the application 142 may request an update from the publishingsystem 130, or the publishing system 130 may push an update to theapplication 142. When an update is received, the interface andinteractivity of the module 136 may be updated, even by changing aspectsof the current view shown to the user.

In some implementations, the customized module 136 can also include oneor more computer-implemented protocols for generating customized healthmanagement modules for display on the user device 150. For instance, thecustomized module 136 can specify content to be displayed based on user,healthcare provider, and client organization information, designate alayout for the specified content based on user-specific settings, and/orprovide user-specific information such as a list of providers for theclient organization associated with the user. The data can be providedby a provider entity 102 b on the provider portal interface 122.

In some instances, the customized module 136 can also specify a set ofconditional rules that enable the user to track health-relatedinformation on customized health management modules that are generatedon the user device 150. The set of conditional rules can be used totrigger the display of tracking information and reminders associatedwith a treatment program that the user is registered in, and executionof other actions performed on the user device 150. An example of aconditional rule can be automatically adjusting the list of providersthat are displayed on a customized health management module based ondetermining that the user is scheduled to have a particular procedureperformed as a part of a treatment program. In such an example, the listof providers displayed includes providers that supporthealthcare-related services associated with the particular procedure(e.g., post-operative recovery and monitoring, follow-up procedures,etc.).

After receiving the customized module 136, the user device 150 generatesthe customized health management modules based on implementing modulespecifications included within the customized module 136 as describedpreviously.

In some implementations, as depicted in FIG. 2A, the customized healthmanagement modules can be generated by the mobile application 142. Asdescribed previously, the mobile application 142 can be installed fromthe app store 140 for the corresponding operating system of the userdevice 150. The mobile application 142 can initially be configured toinclude a set of baseline health management modules when the mobileapplication 142 is first installed on the user device 150. The baselinehealth management modules include generalized content and content layoutthat can be adjusted based on the customized module 136. For instance,the generalized content can be basic information associated with thesystem 100 that is applicable to all providers, client organizations,and users (e.g., user authentication protocols, mobile applicationinfrastructure, system configurations and settings, etc.). In thisregard, the customized module 136 can be used to adjust the baselinehealth management modules to display entity-specific information andexhibit user and provider-specific interaction settings such that thefront-end user interface of the mobile application 142 appears unique toeach user that operates on a single application framework.

FIG. 2A is a diagram that illustrates communication that the publishingsystem 130 facilitates between various systems. Once the customizedmodule 136 is installed at the user device 150, the publishing system130 facilitates communication between the user and healthcare providers.The same publishing system 130 from FIG. 2A is shown in FIG. 2B forconvenience, but this system may represent multiple server systems or adifferent server system from the one that generates or provides thecustomized module 136 in FIG. 2A.

In some implementations, the publishing system 130 enables two-wayasynchronous or synchronous communication between users of the module136 and healthcare providers associated with the module 136. Forexample, users may submit questions for a doctor through an interface ofthe module 136, and the doctor may respond through an interface of themodule 136, or vice versa. As another example, after a user has enteredinformation, for example, indicating symptoms, exercise activity, orwhether medicine was taken, the information may be uploaded to thepublishing system 130 and made available to the healthcare provider. Asanother example, a healthcare provider may send content to be displayedwithin the interface of a module 136, e.g., educational materials,surveys, a predefined or customized message, and so on. Thus thehealthcare provider may encourage or instruct a user of a module 136remotely through the publishing platform. Messages can be providedthrough notifications, even when the application 142 and module 136 arenot active on the user device 150. As another example, messages can beshown when a user opens the application 142, navigates to a particularview of the module 136, or opens a message inbox of the module 136. Insome implementations, a module 136 may permit a live chat or videoconference between a user and a healthcare provider.

In some implementations, healthcare providers can use the publishingsystem 130 to monitor or observe patients on an ongoing basis. Thesefeatures can facilitate real-time messaging and real-time remote careplanning. As noted above, customized modules can include trackers thatspecify types of information to obtain and provide to the publishingsystem. The information may be provide periodically or in response toparticular triggers or conditions. For example, a module focused ondiabetes care may provide periodic updates about a patient's most recentblood sugar tests. As another example, a module supporting fitness mayprovide a notification when a certain level of activity has beendetected by sensors of the user device 150. In some instances,healthcare providers may send requests, to the publishing system 130,for information about their patients on an on-demand basis, and thepublishing system 130 communicates with an individual user device 150 toobtain and provide the requested information. In this regard, customizedmodules may define communications permissions, e.g., to specify whatinformation is permitted to be collected by the module 136, and whathealthcare providers can receive the information.

In some implementations, a module specifies how existing functionalityof the application 142 is to be used. Unlike application updates, theaddition of a module can be done without modifying the actual executablefiles of the application 142. Instead of altering the application 142,the module can indicate what existing functionality of the application142 to expose to a user, and in what manner. For example, theapplication 142 may include functionality for tracking and analyzingvarious types of sensor data of a device. A module can define, fromamong the capabilities of the application 142, which data should becollected and at what frequency. Additionally, the module can specifyrules for how to process acquired data, as well as actions that theuser's device should perform conditioned on the analysis. Thus, a modulecan change the ongoing or default behavior of the application 142. Amodule can be persistent at a user's device, for example, stored andactive until a user indicates that the module should be removed. In someimplementations, modules adjust the initial view or behavior of theapplication 142, the content and interactions with a user while theapplication 142 is active, and/or actions performed by the application142 in the background while a different application is active.

A module may be structured in a number of different formats. In someimplementations a module is structured as XML data or othernon-executable data, and in some instances excludes executable content.In some instances, a module may include executable or interpretableinstructions. In some instances, a module includes references to othercontent, and instructs the application 142 to download the additionalcontent to support the module. The module may specify that additionalcontent should be downloaded, e.g., when the module is first installed,or that additional information should be obtained or refreshed on aperiodic or ongoing basis, or that additional information should bedownloaded on-demand when the user accesses certain views or whencertain triggering conditions are detected by the application 142.

As discussed above, a module can represent a combination of a templateand customization settings. The content of the module may includevarious different items, including user interface instructions (e.g.,defining formatting, size, color, layout, media displayed, etc.),branding (e.g., an organization's name, logo, colors, contact info),organization-specific information (e.g., identifying an applicablehealth insurance plan). Modules can include tracker components, such asdata that defines a trigger or condition to cause a particular type ofdata to be collected, as well as actions to take when the trigger occurs(e.g., send to a server, store, analyze, notify user, etc.). Modules maydefine a set of user experiences, such as interaction flows or dialogsfor a user, or forms, surveys, games, or other interactions. The modulemay include media content, and additionally or alternatively includelinks to media provided by one or more other sources, such as servers.The module can provide educational materials, information about specificmedical conditions, and treatment regimens or wellness plans. Theinformation provided through a module, and the interactions that themodule instructs the application 142 to provide to the user, can bebased on clinically-validated health or treatment information. As notedabove, installing a module can configure the application 142 in variousways, including specifying how the application 142 accesses sensor data,provides user interface elements, interacts with an operating system orother applications (e.g., configuring the application 142 to sendreminders, messages, notifications at device), and interacts over anetwork..

In some implementations, modules include information that connects auser device to healthcare providers. For example, the module canconfigure the application 142 to provide information (e.g., sensor dataof the phone, user comments, health plan compliance information) to aphysician, coach, or other health care provider. This information may besent from a user's device through the publishing server to a device ofthe provider. Similarly, a module may configure the application 142 sothat, through the publishing platform, the healthcare provider can sendreal-time communications or updates to treatment plans or goals.According to the instructions in the module, communications fromproviders can be displayed or used to modify the interactions of theapplication 142 with the user.

FIG. 3 is a diagram that illustrates examples of data that can be usedto generate module specifications for a customized health managementmodule. The data can be provided by an administrator 302 a on the adminportal 112. Briefly, the data provided by the administrator 302 a caninclude a data type 310, form information 320, device managementinformation 330, rule management information 340, tracker information350, and/or content information from a content management system 360.

In general, the various types of data provided by the administrator 302a can be processed sequentially or parallel in order to generate themodule specifications 114. For instance, aggregation techniques can beused such that data from multiple sources can be cross-correlated togenerate a single output (e.g., the module specifications 114). Forexample, as depicted in FIG. 3, information submitted on forms 320, suchas user demographic information submitted on data forms and the user'shealthcare plan information on a user profile form be combined tospecifically manage a user device associated with the user (e.g.,perform specific authentication protocols associated with the user'shealth insurance provider). The form information 320 can also be used tospecify rules related to intervention and wellness goals based onuser-submitted information within the user profile form (e.g., utilizinga user's indication of lifestyle choices to adjust the behavior of thesystem 100 based on detecting wellness data associated with the useractivities.

In more detail, the data type 310 is used to keep track ofuser-submitted information on the mobile application 142. For instance,the data type 310 can include a category associated with theuser-submitted information that indicates how the user-submittedinformation should be processed by the system 100. For example, userinputs indicating a user's health-related information can be categorizedas categorical data to determine user privileges whereas user inputsincluding symptoms can be categorized as treatment-related data that isprovided to applicable providers associated with a treatment programthat the user is currently enrolled in.

The form information 320 includes user-submitted information on formssuch as user registration forms, inpatient forms, or patient surveys. Asdepicted in FIG. 3, two examples of forms can include data forms where auser submits inputs that are used as activity data associated with theuser. For example, data forms can include forms for tracking exerciseactivity for wellness monitoring purposes. The other example can includea user profile form, which includes demographic information, userpreferences, and health-related information such as a healthcare plan,or other clinically relevant information (e.g., medical history,immunization records, etc.).

The rule management information 340 specifies conditions that designatehow particular types of user data are processed, and specific actions tobe taken by the system 100 based on received user data. As depicted inFIG. 3, two examples of rules can include interventions where user dataon forms can be used to predict at-risk conditions associated with theuser and provide alerts on the health management modules to provideinformation related to preventative measures to present the at-riskconditions. For example, a user's medical history indicating risks ofhigh blood pressure can be combined with sensor information from a heartrate sensor to predict the risk of a heart attack. In the secondexample, user goals can be determined based on a set of user preferencesprovided by the user on the user profile form. For example, a user cansubmit information related to an exercise regimen on the user profileform, which can be used to set a set of personal wellness goals that areperiodically updated and communicated through notifications on thehealth management modules.

The trackers 350 are used to monitor user data from multiple sources andtransmit signals in response to detecting patterns associated with themonitored user data. For instance, the trackers 350 can be used tomonitor specific biometric parameters (e.g., heart rate, blood pressure,oxygen levels) related to a user's healthcare conditions to adjust theactivity of the system 100. For example, as described previously, thehealth management modules can be customized to display pertinenthealthcare-related information. In this example, the trackers 350 cantransmit signals to adjust the information displayed on the healthmanagement modules based on real-time biometric measurements. Thetrackers 350 can also designate conditions or contexts that triggermeasurement and measuring of particular types of user information.

The content management system 360 is used to specify how particularcontent items to be displayed on the health management modules areprocessed by the system 100. As depicted in FIG. 3, the contentmanagement system 360 may either process content to adjust settingswithin a control panel or stored in a repository. For example, thecontent management system 360 can categorize content items intendedusage by the users or by types of content. In the first instance, theintended usage can be used to adjust particular settings in the control,or generate preloaded messages from providers that are associated withthe intended usage. In the second instance, content items can beclassified as, for example, messages, hyperlinks, files, or emailtemplates.

The control panel can be used to adjust one or more settings related tothe display of content within the health management modules. Forexample, the control panel can specify which particular content itemsare associated with particular health management modules, particularusers, or rule-based events. In another example, the control panel canspecify how content items are presented within a health managementmodule (e.g., design layouts, or transition effects).

FIG. 4 is a diagram that illustrates examples of data that can be usedto generate customization instructions for a customized healthmanagement module. The data can be provided by a provider entity 102 bon the healthcare provider portal 122. Briefly, the data provided by theprovider entity 102 b can include module customization information 410and application configuration 420. The data provided by the provider 102b can further be combined with the module specifications 114, asdescribed previously, in order to generate the customizationinstructions 132.

In general, provider-specific information can be submitted on theprovider portal interface 122 in order to customize the display of thehealth management modules on user devices of users that are associatedwith the provider. In some instances, the provider entity 102 b can be aclient organization such as an employer. In this regard, the modulecustomization information 410 and the application configuration 420 iseventually combined with the module specifications 114 to generate thecustomization instructions 132.

In more detail, the module customization information 410 includesprovider-specific information that are used to adjust the display andlayout of content, graphics, and/or other information on the healthmanagement modules. As depicted in FIG. 4, examples of modulecustomization information 410 can include provider information, brandingassets, module duration, payment information, and module code. Providerinformation can include areas of practice, types of health insurancesaccepted, and/or size of healthcare practices. Branding assets caninclude marketing or promotional content (e.g., logos, advertisements,program incentives, etc.) that are specific to the provider entity 202a.

The module duration specifies how long a health management module willbe displayed on the user device 150. For example, health managementmodules for short-term conditions (e.g., a doctor's appointment) can beaccessible for one day whereas modules for chronic disease treatmentprograms (e.g., a weight management program) can be accessible forextended periods until the user has achieved goals associated with thetreatment program. The payment options indicate methods of payment thatare accepted by the provider entity 102 b and specified amounts chargedfor procedures performed (e.g., co-pay amounts for checkups). The modulecode includes provider-specific numbers, associated with procedures,billing codes, and/or other accounting information, used to identifyhealthcare services provided to users.

The application configuration 420 can be one or more settings associatedwith the mobile application 142 that adjust how the health managementmodules 142 are displayed on the mobile application 142. As depicted inFIG. 4, examples of application configurations 420 can includeapplication distribution (e.g., how the mobile application 142 isprovided to users), application display (e.g., workflow design of themobile application 142), and user settings (e.g., user-submittedpreferences that configure the mobile application 142). The applicationconfiguration 420 is generated based on aggregating the modulespecification 114 and the module customization 410 using similartechniques as those described with respect to FIG. 3.

FIGS. 5A-5B are diagrams that illustrate examples of customizationinstructions for generating customized health management modules. FIG.5A depicts examples of customization instructions that can be generatedbased on information selected from user forms 510. FIG. 5B depictsexamples of customization instructions that can be generated based ondifferent adjustment protocols.

Referring to FIG. 5A, examples of information selected from forms 510can be form type 520 and form configuration 530. The form type 520refers to a category assigned to a particular form based on the natureof information included within the particular form. Examples of formtypes can include a user profile form 522 that requests a user toprovide demographic insurance information, and a log entry form 524 thatincludes data that is used to measure user activity in relation to atreatment program that the user may be registered in. The formconfiguration 530 refers to an arrangement and presentation ofcomponents included within the form 510. Examples of form configurationscan include sections 532, fields 534, and icons 536. The sections 532refer to the individual areas of the form 510 that organize differenttypes of user information. The fields 534 refer to different types ofdata fields that enable the user to provide field submissions thatdescribe user information. The icons 536 refer to various graphicalcontent that can be associated with providers and client organizationsthat are associated with the user.

Referring to FIG. 5B, examples of adjustment protocols can be workflows560, elements 570, and triggers 580. The workflows 560 refer to dataaggregation techniques used to propagate user data from multiple sourcesto generate the customized module 136. Examples of workflows 560 includea simple workflow 562 where user data is aggregated using a linearprocess using a preconfigured algorithm and a branched workflow 564where user data is aggregated based on a set of decision points thatspecify different aggregation techniques for each result of the decisionpoint. For instance, as described previously, rules or conditions can beused to analyze characteristics of user data and perform conditionalprocesses that are designed to be more appropriate for thecharacteristics of the user data. For example, in some instances, scoresrepresenting characteristics of user data can be compared to thresholdvalues to determine the result at a decision point.

The elements 570 refer to different interface elements of the healthmanagement modules. Examples of the elements 570 include notifications572, content 574, and surveys 576. The notifications 572 can be alertsthat are provided to users or providers in response to detecting alarmevents associated with detected user data, or periodic updates thatprovide a user's progress within a treatment program. For example, thenotifications 572 can be calorie loss alerts that are associated with aweight loss program). The content 574 can be user information or datathat is included within the health management modules. For example, thecontent 574 can be data visualizations for monitored activity data, textfields that include a user's account information, or user input fieldsthat enable a user to submit information that may be relevant to thetreatment program. The surveys 576 can be different types of user formsthat request information from the user to determine a user's progresswithin a treatment program. For example, the surveys 576 can includepatient response surveys that allow a user to provide pain severityscores during a medical consult to provide information related tosymptoms that the user may be experiencing.

The triggers 580 refer to different types of conditions that initiate aset of computer-implemented processes related to the health managementmodules. Examples of the triggers 580 include log entry based triggers582, schedule based triggers 584, and tracker based triggers 586. Thelog entry based triggers 582 initiate processes in response receivinguser inputs that match a set of specified conditions. For example, a logentry based trigger can initiate a communication session on the healthmanagement modules between a provider and a user based on receiving userinput indicating that the user may require emergency medical assistance.The schedule based triggers 584 initiate processes on a reoccurringbasis based on a specified schedule associated with user data providedon the health management modules. For example, a schedule based triggercan trigger a display of a daily calorie intake for the user based ontimes that are associated with the user's exercise regimen. The trackerbased triggers 586 initiate processes based on monitoring user data anddetermining that the monitored user data satisfies one or more conditionassociated with the monitored data. For example, a tracker-based triggermay track heart rate data and in response to detecting an elevated heartrate above a threshold value, transmit instructions to the updateexercise data that is presently displayed on the healthcare managementmodule.

FIG. 5C depicts examples of interfaces 592, 594, and 596 on the mobileapplication 142. Briefly, the interface 592 displays an initial landingpage of the mobile application, which may be displayed after the userinstalls the application. On interface 592, a user can provideinformation associated with a particular client organization orcustomized module to obtain information about available modules. Theinterface 594 displays a list of available health modules for theparticular client organization allowing a user to select an appropriatemodule. The interface 596 displays a customized health module that hasbeen selected by the user, downloaded to the user's device, and used tocustomize the experience of the application for a particular clientorganization.

In more detail, the interface 592 can initially be displayed on themobile application 142 once the user first runs the mobile application142 on the user device 150. As depicted, the user can provideinformation such as a code that is associated with a particular clientorganization, or identifying information such as a name of the user andthe name of the client organization. In these examples, theuser-submitted information is provided to the publishing system 130, sothat the publishing system 130 can retrieve and return a list ofavailable health modules corresponding to the particular code or theparticular client organization that the user indicated. In the exampleshown, the user indicates that he is an employee of XYZ Corp., and theuser submits this information to the publishing system 130.

The interface 594 displays a gallery of available health modules for aparticular client organization, e.g., “XYZ CORP” in the example. Inaddition, the interface 594 presents a list of available modules thatare associated with XYZ CORP and with a healthcare provider that isassociated with XYZ CORP (e.g., GreatCare Insurance). The availablehealth modules can have pricing options available that are specified bythe particular client organization. For example, the module for marathontraining includes a ten dollar fee for access. A user can then make aselection of one of the available modules, which then directs the userto the interface 596.

In the example, the user selects the marathon training module on theinterface 594, and the module is downloaded to the user's device. As aresult, the mobile application customizes its interface to display theinformation and features specified by the customized module. Theinterface 596 is an example of an interface of the mobile applicationafter processing the customized health module. The interface 596 caninclude client organization-specific information such as logos, ormarketing and promotional materials. The interface 594 can also displayinformation provided by a healthcare provider associated with the clientorganization. In the example, marathon training information such asvarious skill levels for a user, different training regimen for eachskill level represents information that is provided by a healthcareprovider associated with the XYZ CORP.

In some implementations, instead of entering information about anorganization, a user may obtain information about a module by entering acode that is associated a particular module or a particular set ofmodules. For example, the publishing system 130 may store a table thatassociates modules with codes corresponding to the modules. Anorganization may distribute the code for a particular module, e.g., byan e-mail, SMS text message, a web page, or other means. At theinterface 592, the user may enter the received code to be taken directlyto an interface showing information for a specific module (or specificset of modules). For example, an employer may distribute a code that,when entered into the appropriate field of interface 592 and submitted,brings the user directly to a view describing and making available thecustomized module for the employer. In some implementations, submittingthe code may cause the application 142 to automatically download andinstall the corresponding module. In some implementations, the code maybe provided in a hyperlink or other interactive element that a user caninteract with to cause a user device to then automatically open theapplication 142, submit the code, and either download or showinformation about a particular module.

In some implementations, the code is used to verify a user'sauthorization to obtain a module. For example, in addition to providinginformation associated with the organization on the interface 592, theuser can also be asked to provide an authentication code on theinterface 594 in order to gain access to an available module for theorganization. For example, the authentication code can be provided tousers that purchase a subscription service of the organization.

In addition, the available modules that are displayed on the interface594 can be adjusted based on a permission level associated with the userof the mobile application. For example, the available modules can beassociated with age requirements such that if a user attempts to accessa particular module with a higher age requirement, the application canrestrict access to the particular module. In other examples, thepermission levels can also be based on a user classification (e.g., rolewithin an organization) or a different types of purchased subscriptionsfor healthcare services.

FIG. 5D is a diagram that illustrates an example of a user interface 598for selecting modules. The interface 598 shows a gallery of differenttypes of modules that are available. For example, the gallery may show amarketplace of modules that are published by the publishing system 130,but which have been customized by various different organizations. Theseorganizations can provide modules that are sold through the publishingplatform.

The interface 598 may be shown to any user of the application 142,allowing the user to browse and select one or more modules. Asillustrated, the interface 598 may show a gallery or marketplace viewshowing different categories of available modules. These may becategorized by, for example, medical condition or aspect of wellnessaddressed by the module, popularity, price, or organization type ororganization that is offering the module through the platform.

FIG. 6A-6B are diagrams of example of processes 600A-600B for publishingcustomized health management modules. Referring to FIG. 6A, the process600A can include providing a user interface for designing a healthmanagement module (610), receiving data indicating a user input (620),receiving customer parameters (630), generating a customized healthmanagement module (640), and publishing the customized health managementmodule (650).

In more detail, the process 600A can include providing a user interfacefor designing a health management module (610). For instance, thepublishing system 130 can provide the admin portal 112 for designing ahealth management module. The admin portal 112 can identify a pluralityof health management module templates such as the module specifications114. As described previously, the healthcare management templates caninclude account information associated with client organizations or useraccess privileges for particular client organizations or users, andother related information available on the admin portal 112. Inaddition, the publishing system 130 can also provide the healthcareprovider portal 122 for specifying provider information associated withthe health management module.

The plurality of health management module templates can includetemplates corresponding to treatment programs for different treatmentprograms. For example, as described previously, the plurality of healthmanagement module templates can include a set of templates associatedwith health and wellness programs targeted to improve fitness andanother set of templates associated with chronic disease treatmenttargeted to assist users to recover from treatment procedures. In someinstances, the templates indicate treatment recommendations and/or othertypes of clinically relevant information sent from the provider,tutorials targeted to assist the user, or billing codes associated withspecific procedures performed on the user. In other instances, theplurality of templates includes a set of interactivity settings thatspecify a set of user actions to follow, which types of user forms andsurveys to include in the health management module, and when to presentthe user forms and surveys. In addition, the set of interactivitysettings can also define how the mobile application 142 uses thecustomized health module 136 and a set of instructions that direct howthe mobile application 142 interacts with the user.

In some implementations, the user interface for the health managementmodule can be provided as a webpage that includes the user interface.For instance, as described previously, a browsing application on can beused to access the webpage and identify the plurality of healthmanagement module templates.

The process 600A can include receiving data indicating a user input(620). For example, the publishing system 130 can receive dataindicating a user input from an administrator through the admin portal112. The user input can include a selection of one of the plurality ofhealth management module templates.

The process 600A can include receiving customization parameters (630).For instance, the customization parameters can initially be generatedbased on aggregating data included within the module specifications 114and the module information 124, and then transmitted the customizationparameters to the publishing system 130. As described previously, thecustomization parameters can be used to customize the selected moduletemplate for a particular client organization.

In some implementations, the customization parameters can includeprovider and/or client organization-specific information include linksto health insurance networks or lists of healthcare providers that aresupported by a client organization that generates the health managementmodule for the user. As described previously, the provider-specificinformation can include images, names, logos, or other types ofmarketing and promotional materials associated with a brand of theprovider or client organization. In other implementations, customizationparameters can update trackers 350 to indicate what information shouldbe transmitted to the user and a time point when the information shouldbe transmitted. The customization parameters can also specify accessconditions associated with the information shown in the healthmanagement module, or custom health-related goals, initiatives, orcontests sponsored by the client organization. The access conditions canspecify individuals that can have sufficient privileges to viewinformation shown in the health management module, or specificcircumstances where an individual can access the information. Forexample, the access conditions can provide privileges to view theinformation that are conditioned upon the occurrence of one or moredetected events associated with the individual.

The process 600A can include generating a customized health managementmodule (640). For instance, the publishing system 130 can generate acustomized health management module for the particular clientorganization based on the selected template and the customizationparameters.

The process 600A can include publishing the customized health managementmodule (650). For instance, the publishing system 130 can publish thecustomized health management module on the user device 150 for displayto a user. The customized health management module can include thecustomized module 136 that configures the mobile application 142 on theuser device 150. As described previously, the mobile application 142 canbe provided by a third-party application store such as the app store140.

In some implementations, the publishing system 130 may make thecustomized health management modules accessible over the network 105 foraccess by the mobile application 142 on the user device 150. Asdescribed previously, the mobile application 142 can be installed on theuser device 150 from the app store 140 and afterwards the mobileapplication 142 can receive data transmissions from the publishingsystem 130 that include the customized health management modules. Insome instances, the publishing system 130 can also provide an index ofavailable modules to the mobile application 142 or search resultsindicating relevant modules for search criteria associated with themodules. For example, a user can provide search criteria for aparticular treatment program on the mobile application 142, and inresponse the publishing system can provide the search results indicatingthe relevant modules that include one or more features associated withthe particular treatment program.

In some instances, in addition to making the customized healthmanagement modules accessible over the network 105 for the mobileapplication 142, the publishing system 130 can also transmit a set ofinstructions such that the customized health management modules changethe operation of the mobile application 142 on the user device 150. Forexample, the set of instructions can enable the customized healthmanagement modules adjust the visual attributes of the mobileapplication 142, provide notifications associated with the customizedhealthcare modules, or enable the customized health management modulesto interact with existing components of the mobile application 142.

Referring now to FIG. 6B, the process 600B can include installing anapplication downloaded over a computer network (612), displaying a listof health management modules (622), providing data indicating one of thelisted health management modules that was selected by a user (632),receiving the selected health management module (642), and installingthe received health management module to modify the application (652).

In more detail, the process 600B can include installing an applicationdownloaded over a computer network (612). For instance, a user caninstall the mobile application 142 on the user device 150 from the appstore 150. The mobile application 142 can be downloaded over the network105 from a content provider server.

The process 600B can include displaying a list of health managementmodules (622). For instance, after installing the mobile application 142on the user device 150, the user device 150 can display a list of healthmanagement modules provided by the publishing system 130. As describedpreviously, the publishing system 130 is independent of the contentprovider server of the app store 140.

The process 600B can include providing data indicating one of the listedhealth management modules that was selected by a user (632). Forinstance, the publishing system 130 can provide data to the user device150 indicating one of the listed health management modules that wasselected by the user of the user device 150.

The process 600B can include receiving the selected health managementmodule (642). For instance, the user device 150 can receive the selectedhealth management module. In some instances, the received healthmanagement module is the customized health module 136 as depicted withrespect to FIG. 2A.

The process 600B can include installing the received health managementmodule to modify the application (652). For instance, the user device150 can install the received health management module to modify themobile application 142 to interact with the user according to thereceived health management module. As an example, the display of theuser interface of the mobile application 142 can be adjusted based onthe received health management module so that user can view clientorganization-specific information that is included within the receivedhealth management module.

The techniques discussed above may be used for generating, publishing,updating, and managing customized modules for many different purposes.For example, while various examples discussed herein refer to healthcaremanagement modules, customized modules may be generated and publishedfor uses outside the healthcare area.

FIG. 7 is a block diagram of computing devices 700, 750 that can be usedto implement the systems and methods described in this document, aseither a client or as a server or plurality of servers. Computing device700 is intended to represent various forms of digital computers, such aslaptops, desktops, workstations, personal digital assistants, servers,blade servers, mainframes, and other appropriate computers. Computingdevice 750 is intended to represent various forms of mobile devices,such as personal digital assistants, cellular telephones, smartphones,and other similar computing devices. Additionally, computing device 700or 750 can include Universal Serial Bus (USB) flash drives. The USBflash drives can store operating systems and other applications. The USBflash drives can include input/output components, such as a wirelesstransmitter or USB connector that can be inserted into a USB port ofanother computing device. The components shown here, their connectionsand relationships, and their functions, are meant to be exemplary only,and are not meant to limit implementations of the inventions describedand/or claimed in this document.

Computing device 700 includes a processor 702, memory 704, a storagedevice 706, a high-speed interface 708 connecting to memory 704 andhigh-speed expansion ports 710, and a low speed interface 712 connectingto low speed bus 714 and storage device 706. Each of the components 702,704, 706, 708, 710, and 712, are interconnected using various busses,and can be mounted on a common motherboard or in other manners asappropriate. The processor 702 can process instructions for executionwithin the computing device 700, including instructions stored in thememory 704 or on the storage device 706 to display graphical informationfor a GUI on an external input/output device, such as display 716coupled to high speed interface 708. In other implementations, multipleprocessors and/or multiple buses can be used, as appropriate, along withmultiple memories and types of memory. Also, multiple computing devices700 can be connected, with each device providing portions of thenecessary operations, e.g., as a server bank, a group of blade servers,or a multi-processor system.

The memory 704 stores information within the computing device 700. Inone implementation, the memory 704 is a volatile memory unit or units.In another implementation, the memory 704 is a non-volatile memory unitor units. The memory 704 can also be another form of computer-readablemedium, such as a magnetic or optical disk.

The storage device 706 is capable of providing mass storage for thecomputing device 700. In one implementation, the storage device 706 canbe or contain a computer-readable medium, such as a floppy disk device,a hard disk device, an optical disk device, or a tape device, a flashmemory or other similar solid state memory device, or an array ofdevices, including devices in a storage area network or otherconfigurations. A computer program product can be tangibly embodied inan information carrier. The computer program product can also containinstructions that, when executed, perform one or more methods, such asthose described above. The information carrier is a computer- ormachine-readable medium, such as the memory 704, the storage device 706,or memory on processor 702.

The high speed controller 708 manages bandwidth-intensive operations forthe computing device 700, while the low speed controller 712 manageslower bandwidth intensive operations. Such allocation of functions isexemplary only. In one implementation, the high-speed controller 708 iscoupled to memory 704, display 716, e.g., through a graphics processoror accelerator, and to high-speed expansion ports 710, which can acceptvarious expansion cards (not shown). In the implementation, low-speedcontroller 712 is coupled to storage device 706 and low-speed expansionport 714. The low-speed expansion port, which can include variouscommunication ports, e.g., USB, Bluetooth, Ethernet, wireless Ethernetcan be coupled to one or more input/output devices, such as a keyboard,a pointing device, microphone/speaker pair, a scanner, or a networkingdevice such as a switch or router, e.g., through a network adapter. Thecomputing device 700 can be implemented in a number of different forms,as shown in the figure. For example, it can be implemented as a standardserver 720, or multiple times in a group of such servers. It can also beimplemented as part of a rack server system 724. In addition, it can beimplemented in a personal computer such as a laptop computer 722.Alternatively, components from computing device 700 can be combined withother components in a mobile device (not shown), such as device 750.Each of such devices can contain one or more of computing device 700,750, and an entire system can be made up of multiple computing devices700, 750 communicating with each other.

The computing device 700 can be implemented in a number of differentforms, as shown in the figure. For example, it can be implemented as astandard server 720, or multiple times in a group of such servers. Itcan also be implemented as part of a rack server system 724. Inaddition, it can be implemented in a personal computer such as a laptopcomputer 722. Alternatively, components from computing device 700 can becombined with other components in a mobile device (not shown), such asdevice 750. Each of such devices can contain one or more of computingdevice 700, 750, and an entire system can be made up of multiplecomputing devices 700, 750 communicating with each other.

Computing device 750 includes a processor 752, memory 764, and aninput/output device such as a display 754, a communication interface766, and a transceiver 768, among other components. The device 750 canalso be provided with a storage device, such as a microdrive or otherdevice, to provide additional storage. Each of the components 750, 752,764, 754, 766, and 768, are interconnected using various buses, andseveral of the components can be mounted on a common motherboard or inother manners as appropriate.

The processor 752 can execute instructions within the computing device750, including instructions stored in the memory 764. The processor canbe implemented as a chipset of chips that include separate and multipleanalog and digital processors. Additionally, the processor can beimplemented using any of a number of architectures. For example, theprocessor 710 can be a CISC (Complex Instruction Set Computers)processor, a RISC (Reduced Instruction Set Computer) processor, or aMISC (Minimal Instruction Set Computer) processor. The processor canprovide, for example, for coordination of the other components of thedevice 750, such as control of user interfaces, applications run bydevice 750, and wireless communication by device 750.

Processor 752 can communicate with a user through control interface 758and display interface 656 coupled to a display 754. The display 754 canbe, for example, a TFT (Thin-Film-Transistor Liquid Crystal Display)display or an OLED (Organic Light Emitting Diode) display, or otherappropriate display technology. The display interface 656 can includeappropriate circuitry for driving the display 754 to present graphicaland other information to a user. The control interface 758 can receivecommands from a user and convert them for submission to the processor752. In addition, an external interface 762 can be provide incommunication with processor 752, so as to enable near areacommunication of device 750 with other devices. External interface 762can provide, for example, for wired communication in someimplementations, or for wireless communication in other implementations,and multiple interfaces can also be used.

The memory 764 stores information within the computing device 750. Thememory 764 can be implemented as one or more of a computer-readablemedium or media, a volatile memory unit or units, or a non-volatilememory unit or units. Expansion memory 764 can also be provided andconnected to device 750 through expansion interface 762, which caninclude, for example, a SIMM (Single In Line Memory Module) cardinterface. Such expansion memory 764 can provide extra storage space fordevice 750, or can also store applications or other information fordevice 750. Specifically, expansion memory 764 can include instructionsto carry out or supplement the processes described above, and caninclude secure information also. Thus, for example, expansion memory 764can be provide as a security module for device 750, and can beprogrammed with instructions that permit secure use of device 750. Inaddition, secure applications can be provided via the SIMM cards, alongwith additional information, such as placing identifying information onthe SIMM card in a non-hackable manner.

The memory can include, for example, flash memory and/or NVRAM memory,as discussed below. In one implementation, a computer program product istangibly embodied in an information carrier. The computer programproduct contains instructions that, when executed, perform one or moremethods, such as those described above. The information carrier is acomputer- or machine-readable medium, such as the memory 764, expansionmemory 764, or memory on processor 752 that can be received, forexample, over transceiver 768 or external interface 762.

Device 750 can communicate wirelessly through communication interface766, which can include digital signal processing circuitry wherenecessary. Communication interface 766 can provide for communicationsunder various modes or protocols, such as GSM voice calls, SMS, EMS, orMMS messaging, CDMA, TDMA, PDC, WCDMA, CDMA2000, or GPRS, among others.Such communication can occur, for example, through radio-frequencytransceiver 768. In addition, short-range communication can occur, suchas using a Bluetooth, Wi-Fi, or other such transceiver (not shown). Inaddition, GPS (Global Positioning System) receiver module 660 canprovide additional navigation- and location-related wireless data todevice 750, which can be used as appropriate by applications running ondevice 750.

Device 750 can also communicate audibly using audio codec 660, which canreceive spoken information from a user and convert it to usable digitalinformation. Audio codec 660 can likewise generate audible sound for auser, such as through a speaker, e.g., in a handset of device 750. Suchsound can include sound from voice telephone calls, can include recordedsound, e.g., voice messages, music files, etc. and can also includesound generated by applications operating on device 750.

The computing device 750 can be implemented in a number of differentforms, as shown in the figure. For example, it can be implemented as acellular telephone 480. It can also be implemented as part of asmartphone 682, personal digital assistant, or other similar mobiledevice.

Various implementations of the systems and methods described here can berealized in digital electronic circuitry, integrated circuitry,specially designed ASICs (application specific integrated circuits),computer hardware, firmware, software, and/or combinations of suchimplementations. These various implementations can includeimplementation in one or more computer programs that are executableand/or interpretable on a programmable system including at least oneprogrammable processor, which can be special or general purpose, coupledto receive data and instructions from, and to transmit data andinstructions to, a storage system, at least one input device, and atleast one output device.

These computer programs (also known as programs, software, softwareapplications or code) include machine instructions for a programmableprocessor, and can be implemented in a high-level procedural and/orobject-oriented programming language, and/or in assembly/machinelanguage. As used herein, the terms “machine-readable medium” and“computer-readable medium” refer to any computer program product,apparatus and/or device, e.g., magnetic discs, optical disks, memory,Programmable Logic Devices (PLDs), used to provide machine instructionsand/or data to a programmable processor, including a machine-readablemedium that receives machine instructions as a machine-readable signal.The term “machine-readable signal” refers to any signal used to providemachine instructions and/or data to a programmable processor.

To provide for interaction with a user, the systems and techniquesdescribed here can be implemented on a computer having a display device,e.g., a CRT (cathode ray tube) or LCD (liquid crystal display) monitorfor displaying information to the user and a keyboard and a pointingdevice, e.g., a mouse or a trackball by which the user can provide inputto the computer. Other kinds of devices can be used to provide forinteraction with a user as well; for example, feedback provided to theuser can be any form of sensory feedback, e.g., visual feedback,auditory feedback, or tactile feedback; and input from the user can bereceived in any form, including acoustic, speech, or tactile input.

The systems and techniques described here can be implemented in acomputing system that includes a back end component, e.g., as a dataserver, or that includes a middleware component, e.g., an applicationserver, or that includes a front end component, e.g., a client computerhaving a graphical user interface or a Web browser through which a usercan interact with an implementation of the systems and techniquesdescribed here, or any combination of such back end, middleware, orfront end components. The components of the system can be interconnectedby any form or medium of digital data communication, e.g., acommunication network. Examples of communication networks include alocal area network (“LAN”), a wide area network (“WAN”), and theInternet.

The computing system can include clients and servers. A client andserver are generally remote from each other and typically interactthrough a communication network. The relationship of client and serverarises by virtue of computer programs running on the respectivecomputers and having a client-server relationship to each other.

A number of embodiments have been described. Nevertheless, it will beunderstood that various modifications can be made without departing fromthe spirit and scope of the invention. In addition, the logic flowsdepicted in the figures do not require the particular order shown, orsequential order, to achieve desirable results. In addition, other stepscan be provided, or steps can be eliminated, from the described flows,and other components can be added to, or removed from, the describedsystems. Accordingly, other embodiments are within the scope of thefollowing claims.

What is claimed is:
 1. A method performed by one or more computers,comprising: providing, by the one or more computers, a user interfacefor creating a customized module to customize behavior of anapplication, wherein the user interface for creating the moduleidentifies templates that each specify one or more user forms to beprovided by the application, the templates being configured such thatgenerating a module based on one of the templates creates a moduleconfigured to cause the application to present the one or more userforms specified by the template, wherein the user forms being configuredto present one or more input fields and to receive information throughthe one or more input fields; receiving, by the one or more computers,data indicating a user input received through the user interface thatselects of one of the templates to be used in generating the customizedmodule, wherein the selected template specifies content for theapplication to present including a first user form; receiving, by theone or more computers, customization data entered using the userinterface, wherein the customization data specifies one or more changesto the content that the selected template specifies for the applicationto present; generating, by the one or more computers, the customizedmodule based on the selected template and the customization data suchthat the customized module is configured to cause the application, whenupdated with the customized module, to present the content specified bythe selected template with the one or more changes indicated by thecustomization data; and providing, by the one or more computers, thecustomized module over a computer network, the customized module beingconfigured to cause a device having the application installed to presentthe first user form customized according to the customization data inresponse to the device receiving the customized module.
 2. The method ofclaim 1, wherein the templates include information configured to providerecommendations tailored for a specific medical condition or healthgoal.
 3. The method of claim 1, wherein the templates include templatescorresponding to different medical conditions.
 4. The method of claim 1,wherein the selected template is associated with one or more interactiveelements or media, and wherein customized module is generated using theone or more interactive elements or media associated with the selectedtemplate.
 5. The method of claim 1, wherein the customized module isgenerated to specify one or more conditions for presenting the firstuser form.
 6. The method of claim 5, wherein the customized moduledesignates the first user form to be presented in response to one ormore predetermined actions.
 7. The method of claim 1, wherein thecustomization data customizes at least one of content of the first userform, layout of the first user form, or one or more conditions forcausing the first user form to be presented.
 8. The method of claim 1,wherein the generated module includes one or more rules configured tocause a device to provide one or more interventions in response to datareceived through the first user form.
 9. The method of claim 1, whereinthe generated module specifies rules for processing data receivedthrough the first user form and one or more conditional actions for adevice having the generated module to perform conditioned on results ofthe processing.
 10. The method of claim 1, wherein providing thecustomized module comprises providing the customized model to a clientdevice; and wherein the generated module is configured to cause theclient device to collect sensor data using one or more sensors of theclient device.
 11. The method of claim 1, wherein providing thecustomized module comprises providing the customized model to a clientdevice; wherein the generated module is configured to cause the clientdevice to monitor one or more physiological parameters of a user of theclient device.
 12. The method of claim 1, wherein the generated modulespecifies a series of interactions to initiate with a user or a seriesof dialogs to present to the user.
 13. A system comprising: one or morecomputers; and one or more computer-readable media storing instructionsthat, when executed by the one or more computers, cause the one or morecomputers to perform operations comprising: providing, by the one ormore computers, a user interface for creating a customized module tocustomize behavior of an application, wherein the user interface forcreating the module identifies templates that each specify one or moreuser forms to be provided by the application, the templates beingconfigured such that generating a module based on one of the templatescreates a module configured to cause the application to present the oneor more user forms specified by the template, wherein the user formsbeing configured to present one or more input fields and to receiveinformation through the one or more input fields; receiving, by the oneor more computers, data indicating a user input received through theuser interface that selects of one of the templates to be used ingenerating the customized module, wherein the selected templatespecifies content for the application to present including a first userform; receiving, by the one or more computers, customization dataentered using the user interface, wherein the customization dataspecifies one or more changes to the content that the selected templatespecifies for the application to present; generating, by the one or morecomputers, the customized module based on the selected template and thecustomization data such that the customized module is configured tocause the application, when updated with the customized module, topresent the content specified by the selected template with the one ormore changes indicated by the customization data; and providing, by theone or more computers, the customized module over a computer network,the customized module being configured to cause a device having theapplication installed to present the first user form customizedaccording to the customization data in response to the device receivingthe customized module.
 14. The system of claim 13, wherein the templatesinclude information configured to provide recommendations tailored for aspecific medical condition or health goal.
 15. The system of claim 13,wherein the templates include templates corresponding to differentmedical conditions.
 16. The system of claim 13, wherein the selectedtemplate is associated with one or more interactive elements or media,and wherein customized module is generated using the one or moreinteractive elements or media associated with the selected template. 17.The system of claim 13, wherein the customized module is generated tospecify one or more conditions for presenting the first user form. 18.The system of claim 17, wherein the customized module designates thefirst user form to be presented in response to one or more predeterminedactions.
 19. The system of claim 13, wherein the customization datacustomizes at least one of content of the first user form, layout of thefirst user form, or one or more conditions for causing the first userform to be presented.
 20. One or more non-transitory computer-readablemedia storing instructions that, when executed by one or more computers,cause the one or more computers to perform operations comprising:providing, by the one or more computers, a user interface for creating acustomized module to customize behavior of an application, wherein theuser interface for creating the module identifies templates that eachspecify one or more user forms to be provided by the application, thetemplates being configured such that generating a module based on one ofthe templates creates a module configured to cause the application topresent the one or more user forms specified by the template, whereinthe user forms being configured to present one or more input fields andto receive information through the one or more input fields; receiving,by the one or more computers, data indicating a user input receivedthrough the user interface that selects of one of the templates to beused in generating the customized module, wherein the selected templatespecifies content for the application to present including a first userform; receiving, by the one or more computers, customization dataentered using the user interface, wherein the customization dataspecifies one or more changes to the content that the selected templatespecifies for the application to present; generating, by the one or morecomputers, the customized module based on the selected template and thecustomization data such that the customized module is configured tocause the application, when updated with the customized module, topresent the content specified by the selected template with the one ormore changes indicated by the customization data; and providing, by theone or more computers, the customized module over a computer network,the customized module being configured to cause a device having theapplication installed to present the first user form customizedaccording to the customization data in response to the device receivingthe customized module.